/*
===========================================================================

Wolfenstein: Enemy Territory GPL Source Code
Copyright (C) 1999-2010 id Software LLC, a ZeniMax Media company. 

This file is part of the Wolfenstein: Enemy Territory GPL Source Code (Wolf ET Source Code).  

Wolf ET Source Code is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.

Wolf ET Source Code is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with Wolf ET Source Code.  If not, see <http://www.gnu.org/licenses/>.

In addition, the Wolf: ET Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Wolf ET Source Code.  If not, please request a copy in writing from id Software at the address below.

If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA.

===========================================================================
*/



#if defined( WIN32 ) || defined( _WIN32 )
#include <io.h>
#endif
#include <malloc.h>
#include "l_cmd.h"
#include "l_math.h"
#include "l_poly.h"
#include "l_threads.h"
#include "../botlib/l_script.h"
#include "l_bsp_ent.h"
#include "q2files.h"
#include "l_mem.h"
#include "l_utils.h"
#include "l_log.h"
#include "l_qfiles.h"

//Mr Elusive shit
#define ME
#define DEBUG
#define NODELIST
#define SIN
#define MRE_ET

#define MAX_BRUSH_SIDES     128     //maximum number of sides per brush
#define CLIP_EPSILON        0.1
//#define MAX_MAP_BOUNDS		65535
#define MAX_MAP_BOUNDS      ( 128 * 1024 )    // (SA) (9/17/01) new map dimensions (from Q3TA)
#define BOGUS_RANGE         ( MAX_MAP_BOUNDS + 128 )    //somewhere outside the map

#define TEXINFO_NODE        -1      //side is allready on a node
#define PLANENUM_LEAF       -1      //used for leaf nodes
#define MAXEDGES            20      //maximum number of face edges
#define MAX_NODE_BRUSHES    8       //maximum brushes in a node
//side flags
#define SFL_TESTED          1
#define SFL_VISIBLE         2
#define SFL_BEVEL           4
#define SFL_TEXTURED        8
#define SFL_CURVE           16

//map plane
typedef struct plane_s
{
	vec3_t normal;
	vec_t dist;
	byte /*int*/ type;
	byte /*int*/ signbits;
	struct plane_s  *hash_chain;
} plane_t;
//brush texture
typedef struct
{
	vec_t shift[2];
	vec_t rotate;
	vec_t scale[2];
	char name[32];
	int flags;
	int value;
} brush_texture_t;
//brush side
typedef struct side_s
{
	int planenum;               // map plane this side is in
	int texinfo;                    // texture reference
	winding_t       *winding;   // winding of this side
	struct side_s   *original;  // bspbrush_t sides will reference the mapbrush_t sides
	int lightinfo;              // for SIN only
	int contents;               // from miptex
	int surf;                       // from miptex
	unsigned short flags;       // side flags
} side_t;       //sizeof(side_t) = 36
//map brush
typedef struct mapbrush_s
{
	int entitynum;
	int brushnum;

	int contents;
#ifdef ME
	int expansionbbox;              //bbox used for expansion of the brush
	int leafnum;
	int modelnum;
#endif

	vec3_t mins, maxs;

	int numsides;
	side_t  *original_sides;
} mapbrush_t;
//bsp face
typedef struct face_s
{
	struct face_s       *next;      // on node

	// the chain of faces off of a node can be merged or split,
	// but each face_t along the way will remain in the chain
	// until the entire tree is freed
	struct face_s       *merged;    // if set, this face isn't valid anymore
	struct face_s       *split[2];  // if set, this face isn't valid anymore

	struct portal_s *portal;
	int texinfo;
#ifdef SIN
	int lightinfo;
#endif
	int planenum;
	int contents;                   // faces in different contents can't merge
	int outputnumber;
	winding_t           *w;
	int numpoints;
	qboolean badstartvert;                  // tjunctions cannot be fixed without a midpoint vertex
	int vertexnums[MAXEDGES];
} face_t;
//bsp brush
typedef struct bspbrush_s
{
	struct      bspbrush_s  *next;
	vec3_t mins, maxs;
	int side, testside;             // side of node during construction
	mapbrush_t  *original;
	int numsides;
	side_t sides[6];                // variably sized
} bspbrush_t;   //sizeof(bspbrush_t) = 44 + numsides * sizeof(side_t)
//bsp node
typedef struct node_s
{
	//both leafs and nodes
	int planenum;               // -1 = leaf node
	struct node_s   *parent;
	vec3_t mins, maxs;          // valid after portalization
	bspbrush_t      *volume;        // one for each leaf/node

	// nodes only
	qboolean detail_seperator;              // a detail brush caused the split
	side_t          *side;      // the side that created the node
	struct node_s   *children[2];
	face_t          *faces;

	// leafs only
	bspbrush_t      *brushlist; // fragments of all brushes in this leaf
	int contents;               // OR of all brush contents
	int occupied;               // 1 or greater can reach entity
	entity_t            *occupant;  // for leak file testing
	int cluster;                    // for portalfile writing
	int area;                       // for areaportals
	struct portal_s *portals;   // also on nodes during construction
#ifdef NODELIST
	struct node_s *next;            //next node in the nodelist
#endif
#ifdef ME
	int expansionbboxes;            //OR of all bboxes used for expansion of the brushes
	int modelnum;
#endif
} node_t;       //sizeof(node_t) = 80 bytes
//bsp portal
typedef struct portal_s
{
	plane_t plane;
	node_t *onnode;             // NULL = outside box
	node_t *nodes[2];               // [0] = front side of plane
	struct portal_s *next[2];
	winding_t *winding;

	qboolean sidefound;             // false if ->side hasn't been checked
	side_t *side;                   // NULL = non-visible
	face_t *face[2];                // output face in bsp file
#ifdef ME
	struct tmp_face_s *tmpface; //pointer to the tmpface created for this portal
	int planenum;                   //number of the map plane used by the portal
#endif
} portal_t;
//bsp tree
typedef struct
{
	node_t      *headnode;
	node_t outside_node;
	vec3_t mins, maxs;
} tree_t;

//=============================================================================
// bspc.c
//=============================================================================

extern qboolean noprune;
extern qboolean nodetail;
extern qboolean fulldetail;
extern qboolean nomerge;
extern qboolean nosubdiv;
extern qboolean nowater;
extern qboolean noweld;
extern qboolean noshare;
extern qboolean notjunc;
extern qboolean onlyents;
#ifdef ME
extern qboolean nocsg;
extern qboolean create_aas;
extern qboolean freetree;
extern qboolean lessbrushes;
extern qboolean nobrushmerge;
extern qboolean cancelconversion;
extern qboolean noliquids;
extern qboolean capsule_collision;
extern qboolean writeaasmap;
extern qboolean groundonly;
extern qboolean writebrushmap;
extern qboolean noPatches;
#endif //ME

extern float subdivide_size;
extern float bsp_grid_size;
extern vec_t microvolume;

extern char outbase[32];
extern char source[1024];

//=============================================================================
// map.c
//=============================================================================

#define MAX_MAPFILE_PLANES          512000 //128000
#define MAX_MAPFILE_BRUSHES         65535 //16384
#define MAX_MAPFILE_BRUSHSIDES      ( MAX_MAPFILE_BRUSHES * 8 )
#define MAX_MAPFILE_TEXINFO         8192

extern int entity_num;

extern plane_t mapplanes[MAX_MAPFILE_PLANES];
extern int nummapplanes;
extern int mapplaneusers[MAX_MAPFILE_PLANES];

extern int nummapbrushes;
extern mapbrush_t mapbrushes[MAX_MAPFILE_BRUSHES];

extern vec3_t map_mins, map_maxs;

extern int nummapbrushsides;
extern side_t brushsides[MAX_MAPFILE_BRUSHSIDES];
extern brush_texture_t side_brushtextures[MAX_MAPFILE_BRUSHSIDES];

#ifdef ME

typedef struct
{
	float vecs[2][4];           // [s/t][xyz offset]
	int flags;              // miptex flags + overrides
	int value;
	char texture[64];           // texture name (textures/*.wal)
	int nexttexinfo;        // for animations, -1 = end of chain
} map_texinfo_t;

extern map_texinfo_t map_texinfo[MAX_MAPFILE_TEXINFO];
extern int map_numtexinfo;
#define NODESTACKSIZE       1024

#define MAPTYPE_QUAKE1      1
#define MAPTYPE_QUAKE2      2
#define MAPTYPE_QUAKE3      3
#define MAPTYPE_HALFLIFE    4
#define MAPTYPE_SIN         5

extern int nodestack[NODESTACKSIZE];
extern int *nodestackptr;
extern int nodestacksize;
extern int brushmodelnumbers[MAX_MAPFILE_BRUSHES];
extern int dbrushleafnums[MAX_MAPFILE_BRUSHES];
extern int dplanes2mapplanes[MAX_MAPFILE_PLANES];

extern int loadedmaptype;
#endif //ME

extern int c_boxbevels;
extern int c_edgebevels;
extern int c_areaportals;
extern int c_clipbrushes;
extern int c_squattbrushes;

//finds a float plane for the given normal and distance
int FindFloatPlane( vec3_t normal, vec_t dist, int numPoints, vec3_t* points );
//returns the plane type for the given normal
int PlaneTypeForNormal( vec3_t normal );
//returns the plane defined by the three given points
int PlaneFromPoints( int *p0, int *p1, int *p2 );
//add bevels to the map brush
void AddBrushBevels( mapbrush_t *b );
//makes brush side windings for the brush
qboolean MakeBrushWindings( mapbrush_t *ob );
//marks brush bevels of the brush as bevel
void MarkBrushBevels( mapbrush_t *brush );
//returns true if the map brush already exists
int BrushExists( mapbrush_t *brush );
//loads a map from a bsp file
int LoadMapFromBSP( struct quakefile_s *qf );
//resets map loading
void ResetMapLoading( void );
//print some map info
void PrintMapInfo( void );
//writes a map file (type depending on loaded map type)
void WriteMapFile( char *filename );

//=============================================================================
// map_q3.c
//=============================================================================
void Q3_ResetMapLoading( void );
//loads a map from a Quake3 bsp file
void Q3_LoadMapFromBSP( struct quakefile_s *qf );

//=============================================================================
// textures.c
//=============================================================================

typedef struct
{
	char name[64];
	int flags;
	int value;
	int contents;
	char animname[64];
} textureref_t;

#define MAX_MAP_TEXTURES    1024

extern textureref_t textureref[MAX_MAP_TEXTURES];

int FindMiptex( char *name );
int TexinfoForBrushTexture( plane_t *plane, brush_texture_t *bt, vec3_t origin );
void TextureAxisFromPlane( plane_t *pln, vec3_t xv, vec3_t yv );

//=============================================================================
// csg
//=============================================================================

bspbrush_t *MakeBspBrushList( int startbrush, int endbrush, vec3_t clipmins, vec3_t clipmaxs );
bspbrush_t *ChopBrushes( bspbrush_t *head );
bspbrush_t *InitialBrushList( bspbrush_t *list );
bspbrush_t *OptimizedBrushList( bspbrush_t *list );
void WriteBrushMap( char *name, bspbrush_t *list );
void CheckBSPBrush( bspbrush_t *brush );
void BSPBrushWindings( bspbrush_t *brush );
bspbrush_t *TryMergeBrushes( bspbrush_t *brush1, bspbrush_t *brush2 );
tree_t *ProcessWorldBrushes( int brush_start, int brush_end );

//=============================================================================
// brushbsp
//=============================================================================

#define PSIDE_FRONT         1
#define PSIDE_BACK          2
#define PSIDE_BOTH          ( PSIDE_FRONT | PSIDE_BACK )
#define PSIDE_FACING        4

void OpenBSPBrushMap( char *filename, int contents );
void WriteBrushListToFile( bspbrush_t *brushlist, char *filename );
void WriteBrushList( char *name, bspbrush_t *brush, qboolean onlyvis );
bspbrush_t *CopyBrush( bspbrush_t *brush );
int SplitBrush( bspbrush_t *brush, int planenum, bspbrush_t **front, bspbrush_t **back );
node_t *AllocNode( void );
bspbrush_t *AllocBrush( int numsides );
int CountBrushList( bspbrush_t *brushes );
void FreeBrush( bspbrush_t *brushes );
vec_t BrushVolume( bspbrush_t *brush );
void BoundBrush( bspbrush_t *brush );
void FreeBrushList( bspbrush_t *brushes );
tree_t *BrushBSP( bspbrush_t *brushlist, vec3_t mins, vec3_t maxs );

bspbrush_t *BrushFromBounds( vec3_t mins, vec3_t maxs );
int BrushMostlyOnSide( bspbrush_t *brush, plane_t *plane );
qboolean WindingIsHuge( winding_t *w );
qboolean WindingIsTiny( winding_t *w );
void ResetBrushBSP( void );

//=============================================================================
// portals.c
//=============================================================================

int VisibleContents( int contents );
void MakeHeadnodePortals( tree_t *tree );
void MakeNodePortal( node_t *node );
void SplitNodePortals( node_t *node );
qboolean    Portal_VisFlood( portal_t *p );
qboolean FloodEntities( tree_t *tree );
void FillOutside( node_t *headnode );
void FloodAreas( tree_t *tree );
void MarkVisibleSides( tree_t *tree, int start, int end );
void FreePortal( portal_t *p );
void EmitAreaPortals( node_t *headnode );
void MakeTreePortals( tree_t *tree );

//=============================================================================
// glfile.c
//=============================================================================

void OutputWinding( winding_t *w, FILE *glview );
void WriteGLView( tree_t *tree, char *source );

//=============================================================================
// gldraw.c
//=============================================================================

extern vec3_t draw_mins, draw_maxs;
extern qboolean drawflag;

void Draw_ClearWindow( void );
void DrawWinding( winding_t *w );
void GLS_BeginScene( void );
void GLS_Winding( winding_t *w, int code );
void GLS_EndScene( void );

//=============================================================================
// leakfile.c
//=============================================================================

void LeakFile( tree_t *tree );

//=============================================================================
// tree.c
//=============================================================================

tree_t *Tree_Alloc( void );
void Tree_Free( tree_t *tree );
void Tree_Free_r( node_t *node );
void Tree_Print_r( node_t *node, int depth );
void Tree_FreePortals_r( node_t *node );
void Tree_PruneNodes_r( node_t *node );
void Tree_PruneNodes( node_t *node );

//=============================================================================
// faces.c
//=============================================================================

face_t *AllocFace( void );
void FreeFace( face_t *f );
void MakeFaces( node_t *headnode );
void FixTjuncs( node_t *headnode );
int GetEdge2( int v1, int v2, face_t *f );
void MergeNodeFaces( node_t *node );
